Method and Apparatus for Providing a Container to a Sterile Environment

ABSTRACT

A method and apparatus for providing an unsterilized item to a sterile field is disclosed. The item can include a human input device. The sterile field can be in an operating room.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a divisional of U.S. patent application Ser. No. 11/334,798 filed on Jan. 18, 2006. The entire disclosure of the above application is incorporated herein by reference.

FIELD

The present disclosure is directed to a method and apparatus for maintaining a sterile environment, and particularly to a method and apparatus for maintaining a sterile environment around a computer input device.

BACKGROUND

The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.

Computer and/or processor systems have become ubiquitous in modern society and times. Computer systems can be used for various applications, such as data storage, data manipulation, data creation and the like. Computer systems generally have human interface portions, such as human input portions and human readable output portions. The various portions of the computer system can be used in various applications, such as in design, program execution, and the like. For example, a computer system can be used in a computer assisted surgical system, such as those disclosed U.S. patent application Ser. No. 10/976,328 filed Oct. 28, 2004, entitled “Method and Apparatus for Calibrating Non-Linear Instruments”, incorporated herein by reference.

Computer assisted surgical procedures can include various neurological, spinal, and the like procedures that require a very precise navigation of instruments to safely perform the surgical procedure. Nevertheless, it may be desirable to perform the procedure through a substantially small incision to reduce recovery time, increase efficacy of the procedure, and other appropriate reasons. Therefore, computer systems can assist in navigating, such as tracking an anatomical portion or a surgical instrument, relative to a patient.

The computer systems, therefore, are generally required in operating rooms near a patient. Operating rooms, at least during a surgical procedure, are generally maintained in a substantially sterile state to reduce the possibility of infection of a patient. Computer systems, therefore, are generally required to be kept away from a substantially sterile field, due to the difficulty of sterilizing various portions of the computer system. Although various portions of the computer system may be covered to maintain a sterile and secure environment, such as the human readable output display. The various input portions, however, are nearly impossible to put into a sterile field because of the human interaction required with them. For example, it may be desirable to input data or instructions during a surgical procedure, therefore requiring that the input device either be sterile or removed from the sterile field.

Therefore, it may be desirable to provide a system and apparatus that can allow for maintaining a sterile field around a human input device, such as a keyboard, a mouse, a trackball, or the like, to assist in allowing a surgeon or user more precise control of a computer system.

SUMMARY

An apparatus and method for providing a sterile field around a human input device, such as the keyboard, mouse, trackball, stylus, or the like is disclosed. Generally, the system or apparatus allows for positioning a human input device within a container that is sterile on the exterior of the container so that the human input device can be moved into a sterile field. For example, a human input device can be positioned within a sterile container in a non-sterile area. The container can then be moved with the human input device therein from the non-sterile area to the sterile area.

According to various embodiments a system for providing a substantially sterile item to a sterile field is disclosed. The system can include a container operable to contain the item and a closure system operable to close the container to an ambient environment. The container can have an exterior wall to define an internal portion where the item is operable to be positioned within the interior portion. The item is operable to be positioned within the container during an operative procedure to move the item into a sterile field without sterilizing the item.

According to various embodiments a method of providing a member to a sterile field in an operating room is disclosed. The method can include providing a container operable by a user in an operating room to contain the member and moving the member into the container. The container can be closed to an ambient atmosphere after moving the member into the container. The member can also be used to provide input to a system after the member is in the container.

According to various embodiments a method of using an unsterilized human input device with a processor in or near a sterile field is disclosed. The method can include providing a container having a sterile exterior and moving the human input device into the container while maintaining the sterility of the exterior of the container. The container can be closed to substantially completely contain the human input device within the provided container. The human input device can be used within a sterile field while maintaining the sterile field.

According to various embodiments a method of using a computer assisted surgical navigation system is disclosed. The method of using the system can include providing a navigation system to track a tracking sensor. A container to contain a human input device is provided and the human input device can be put in the in the provided container. The sterility of an exterior of the provided container can be maintained in part by closing the container to an exterior environment.

Further areas of applicability will become apparent from the description provided herein. It should be understood that the description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure.

BRIEF DESCRIPTION OF THE FIGURES

The figures described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way.

FIG. 1 is a plan view of a sterile container according to various embodiments;

FIG. 2 is a perspective view of a sterile container according to various embodiments;

FIG. 3 is a perspective view of a sterile container and human input device according to various embodiments;

FIG. 4 is a perspective view of a sterile container according to various embodiments;

FIGS. 5A-5F illustrate a sterile container according to various embodiments and a method of positioning a human input device in a sterile container according to various embodiments; and

FIG. 6 illustrates a human input device positioned within a sterile container in an environmental view.

DETAILED DESCRIPTION OF VARIOUS EMBODIMENTS

The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses.

A human input device can be any appropriate device, such as those generally known in the art, and those that can be in the future created. Various examples include a mouse, a keyboard, a pointer, a stylus, a foot pedal, and the like. Nevertheless, the human input device can be formed in such a manner that it may not be sterilized using generally known sterilization techniques, such as an autoclave, chemical sterilization, radioactive sterilization, or the like. To allow the human input device be used in a sterile field the human input device can be positioned within a container that allows for the maintaining and creation of a sterile field around the human input device. The container can be formed to allow contact or the use of the human input device. Although various human input devices can be used, a mouse is illustrated herein merely for exemplary purposes. Further, it will be understood that various input devices can be hardwired or transmit wirelessly to a computer system. Therefore, a wireless mouse is illustrated here merely for exemplary purposes. It will also be understood that a human readable output device can be positioned within a container, as disclosed herein. Thus, although a human input device is discussed other items, such as a monitor, printer, heads up display and the like, can be put in a container.

With reference to FIG. 1, a sterile container 10 is illustrated. The sterile container 10 can include various portions, such as an outer wall 12, an upper portion 14 that can define an opening and a lower portion 16 that can define a closed end or a second opening. It may be selected that only a single end of the container 10 includes an opening for ease of use of the sterile container 10. Further, the various portions of the container 10 can include a closing mechanism 18. A handle portion 19 can also be provided. The handles 19 can be formed as a part of the container as a single member 19 or integrated with the container at a selected time. The handle 19 can also act as a member to protect a user, such as a sterile user, from contamination from the human input device or non-sterile user. Thus, it will be understood that that the handle 19 can be both a grasping member and a protective member.

The closing mechanism 18 can be any appropriate closing mechanism, including those described herein and exemplarily illustrated in FIG. 1. For example, a closing mechanism 18 can include a deformable member, such as a wire 20. The wire 20 can be formed inside of a band portion 22 that is also a portion of the closing apparatus 18. The wire 20 can be selectively deformed to maintain a lock or closure of the container 10. The band and wire can terminate in two ends 21, 23 for use by a user to complete the closure.

The container 10 can further include various demarcations, such as a scoring or folding line 24. The scoring or folding line 24 can also be a sterilization insurance mark to insure that an appropriate portion of the container 10 has been closed to maintain or create a seal between an interior of the container 26 and an ambient or exterior environment. It will be understood that the demarcation line 24 is not required relative to the container and is optional for assisting a user.

As discussed further herein, once a device, such as a human input device, is positioned within the container 10, the upper portion 14 can be closed and the upper portion of the container 14 can be rolled over on itself and the closure device 18 used to maintain the rolls. The demarcation line 24, which is optional, can be provided to insure that appropriate number of rolls have been created to create a substantially complete seal between the interior of the bag 26 and an exterior ambient environment.

The container 10 can further include a selected dimension. For example, the upper portion of the bag 14 can include a dimension 30 that is greater than a dimension 32 of a lower portion of the bag 16. The dimension 30 can be provided to allow for easy insertion or access to the interior of the container 26 with a device, such as a human input device. The dimensions 30, 32 can be any appropriate dimension, but can form the container into a substantially trapezoidal shape. The shape and dimensions of the container 10 can be provided so that once the human input device is positioned within the container 10 the amount of material around the human input device is substantially reduced or minimized.

The container 10 can be formed of any appropriate material. For example, a polymer material can be used to form the container 10, as long as the polymer is substantially air, gas, particle, tight. Any other appropriate materials can be used, such as alloys, the combination of polymers and metal alloys, natural fibers, or any appropriate materials. Nevertheless, it may be selected that the exterior wall 12 of the container 10 is substantially flexible and malleable so that the container 10 can be fitted around or formed substantially to the shape and size of a human input device. Also, the container 10, according to various embodiments, can be formed to be substantially clear or transparent, allowing a user to see an item within the container. The container 10 can be formed to allow a fine tactile discrimination of an item in the container. This can allow for ease of use of an item placed within the container.

With reference to FIG. 2, a sterile container 40 is illustrated. Similar portions of the sterile container 40 that are similar to the portions of the sterile container 10 will be indicated with similar reference numerals. The sterile container 40 can include the exterior wall 12, a bottom portion 16, and a top portion 14. Further, a marking line or sterilization line 24 can also be provided on the outer wall. The handle 19 can also be provided on the container 40.

The sterile container 40 can also be formed as substantially similar materials to the sterile container 10 such as those discussed above. Although the material for forming a sterile container 40 can be provided in any appropriate manner, it can include substantially airtight or non-permeable polymers, alloy materials, or the like. The materials can also allow for maintaining a sterile environment within the container once it is closed.

The sterile container 40 can also include a closure system 48. The closure system 48 can include a wire 50 that is enclosed within a band 52. The closure system 48, however, can include a first set of closing tabs 54, 56 and a second set of closing tabs 58, 60. The closing tabs 54-60 can be used in a manner similar to the closing tabs 21, 23 of the closing system 18. As discussed above, a human input device can be positioned within the interior 26 of the container 40 and the closing device 48 be used to close the upper portion 14 of the container 40. The closing tabs 54-60 can then be used to ensure that the closure system 48 remains closed. The tabs 54-60 can be crimped, as discussed further herein, to maintain the sterile closure.

With reference to FIG. 3, a sterile field maintenance container 70 is illustrated. Portions of the container 70 that are similar to the portions described above will be referenced with similar reference numerals. The container 70 can include an exterior wall 12, a bottom portion 16, an upper portion 14, and the closure line 24. The container 70 can further include a closure system similar to the closure system 48 discussed above. The container 70 can also include any appropriate shape, including those discussed above, such as a trapezoidal shape, a square shape, round shape, or the like. The container 70 can also include the handle 19.

The sterile container system 70, however, can also include additional portions, which also can be included in the various embodiments, even those discussed herein, even if only illustrated in FIG. 3. An additional transfer or positioning portion 72 can be provided with the container 70. The sterile transfer portion 72 can assist in moving a human input device 74 from an exterior or ambient environment to the interior 26 of the container 70. The transfer portion 72 can include an interior portion 76 and an exterior portion 78. The transfer sleeve 72 can be provided within the container 70 and accessed by a substantially sterilized user or portion. The user can pull the transfer portion 72 partially out of the container 70, to allow the human input device 74 to be moved into the container 70 while reducing the possibility of touching a portion of the container 70 with the user input device 74 or by a user moving the user input device 74. A method of moving the human input device 74 is exemplary discussed further herein.

With reference to FIG. 4, a sterile container 90 is illustrated. The sterile container 90 can include similar portions to those discussed above, where like reference numerals reference the like portions. For example, the sterile container 90 can include an exterior wall 12, an upper portion 14, and a lower portion 16. Further, the sterile container 90 can be formed of material similar to those discussed above, include a shape similar to those discussed above, or be formed of any appropriate material or shape. The container 90 may also include the handle 19.

The sterile container 90 can include a closure system 92 that can be provided in any appropriate manner. For example, the closure system 92 can include a closing or sealing mechanism 94. The sealing mechanism 94 can be any appropriate sealing mechanism such as a rail and groove interlocking or engagement system. The interlocking closure system can be used in a generally known, on various devices such as closure containers sold by Ziploc®. A single, double, triple, or any appropriate number can be used to lock the closure system 92 to create a seal between an exterior or ambient environment and the interior 26 of the container 90. Further, various adhesives can be used as a part of the closure system 92 to adhere portions of the upper portion 14 together to create a substantially airtight seal. Also, two portions of the container 90 can be welded, such as melt welded, together to seal the container.

It will be understood, therefore, that any appropriate closure mechanism can be provided to close a sterile container relative to an external or ambient environment. The closure mechanism can be provided to substantially minimize or eliminate the transfer of any ambient or exterior contaminant into an interior of the container according to various embodiments. Although the human input device, that is substantially not sterile, can be positioned within the container, the entire container can then be moved into a sterile field where the human input device can be used regardless that it is surrounded by the container. The fine tactile sensations can allow a user, such as a physician, can directly access a computer system with the human input device without requiring a human or secondary user to input instructions, commands, information or the like into a computer system. Further, the containers can be substantially disposable, single use, or a combination thereof.

With reference to FIGS. 5A-5F, a method of using the sterile container 70 is illustrated. Although the use of the sterile container 70 is illustrated in FIGS. 5A-5F, it will be understood that a sterile container, according to any of the various embodiments, can be used according to the exemplary method described herein.

With initial reference to FIG. 5A, as discussed above, the sterile container 70 includes an exterior wall 12 and a closure mechanism 48. Contained within the container 70 is the optional transfer sleeve 72. As discussed above, the transfer sleeve can include a first end 71 that can be substantially open and a second end 73 that can also be substantially open. The two ends 71, 73 can assist in allowing the passing of the human input device 74 from an exterior environment to the interior 26 of the container 70.

With additional reference to FIG. 5B, a substantially sterile user 100 can be sterilized according to any appropriate system, such as with chemicals and other appropriate sterilization techniques and can be covered, such as with a sterile glove 102. The user 100 can contact the container 70 without destroying the sterile field of the container 70 due to the sterilization of the user 100. Thus, the user 100 can obtain access to the interior 26 of the container 70 and partially remove the transfer sleeve 72 to allow for access to the first end 71 of the transfer sleeve 72. For example, the user 100 can use the handle 19 to manipulate the container 70 to obtain access to the container 70 or to hold the opening of the container open.

With additional reference to FIG. 5C, a non-sterile user 104 can position the human input device 74 relative to the first end 71 of the transfer sleeve 72. The user 104 can be substantially non-sterile and move the human input device 74 relative to container 70 because of the transfer sleeve 72. The transfer sleeve is substantially sterile because it has been maintained or included with the sterile container 70 or the sleeve 72 can be non-sterile. Therefore, the sterile sleeve 72 can also be touched by the non-sterile user 104, at least on an exterior portion thereof, to allow for assisting in moving the human input device 74 into the interior 76 of the container 70. The sterile user 100 can use the handle to hold the container 70 in a selected position, or any other appropriate portion of the container 70.

The container 70 can also be held by the user 100 to allow access to the sleeve 72 by the user 104. The user 104 can contact and manipulate the sleeve 72 without contaminating the exterior of the container 70 if the user 100 appropriately holds the container 70. This can assist in moving the human input device into the container 70 without contaminating an exterior thereof so that it can be moved into the sterile field once the container 70 is sealed. Thus, it will be understood, that the sleeve 72 can be accessed by either user 100 or 104 to assist in moving the human input device into the container 70.

As discussed above the sterile user 100 can use the handles 19 to cover a portion of the user 100 to reduce possible contamination of the sterile user 100 by the human input device 74 or the non-sterile user 104. Thus, the handle 19 can be both an assistant member in holding and manipulating the container 70 but also a protective member in reducing the possibility of contamination. It will be understood, therefore, that the handle 19 can be formed of any appropriate material or be any appropriate size to assist in either manipulating the container 70 or protecting the user 100 or the exterior of the container 70 from contamination.

Once the human input device 74 has been positioned relative to the sleeve 72, the human input device 74 can be substantially released to allow it to move in the direction of gravity, which is generally illustrated in the direction of arrows 106. Therefore, the human input device 74 can pass through the sleeve 72 and into the container 70 as illustrated in FIG. 5D. Because the human input device 74 has passed into the bag container 70, the sleeve 72 can be removed by the non-sterile user 104 while the human input device 74 is within the container 70. The container 70 is substantially sterile on an exterior portion thereof and reduces the potential or does not allow for passage of any contaminants that may be on the human input device 74 to an exterior of the container 70. Similarly, portions that are exterior to the container 70 can be maintained on the exterior portion and not allowed to enter the container 70.

With reference to FIG. 5E, once the human input device 74 is positioned within the container 70, the closure mechanism 48 can be operated by the sterile user 100 to close the container 70. As illustrated, the closure device 48 and a portion of the upper portion 14 of the container 70 can be rolled generally in the direction of arrows 108 to create folds out the upper portion of the container 14. As discussed above, the sterilization or closing mark 24 can be used to ensure that enough of the container 70 has been closed or used to form an appropriate seal. It will be understood that rolling the upper portion of the container 70 can create a substantially convoluted or circuitous seal substantially so that no contaminants can move between the interior 26 of the container 70 or the exterior of the container 70. Also, if the optional handles 19 are provided they can be rolled inside the rolls formed to assist in assuring that no contamination occurs or in reducing the possibility of contamination. The handle 19 inside the roll can reduce the possibility of contamination on the exterior of the container 70.

With reference to FIG. 5F, the tabs 54-60 can then be folded over to maintain the seal of the container 70. The tabs 54-60 can be used to ensure that the seal formed by rolling the portion of the bag is maintained during use of the human input device 74. The tabs 54-60 can be folded in any appropriate manner but can generally be folded in the direction of arrows 110. Therefore, the container 70 can be provided to a substantially sterile filed in a sterile manner, such as within an operating room. Because the closure mechanism 48, or a closer mechanism according to any appropriate embodiments, defines a seal any contaminants that may be on the human input device 74 cannot escape into the sterile field. Similarly, no exterior portion, such as contaminants from an exterior field can move to an interior of the container 70.

The container 70 can be closed with the closure mechanism 48 to substantially seal the container 70. The seal formed by the closure mechanism 48 can allow the interior of the container to be sealed to an exterior environment so that a sterile field is not disturbed by the human input device 74 that has not been sterilized. The container 70 allows the human input device 70 to be moved into the sterile field. The closure mechanism 48 assists in this by creating and maintaining the substantial seal of the container 70.

It will be understood that the containers according to the various embodiments can be used in any appropriate manner to move the human input device 74 to an interior of the containers. It will be understood that the transfer sleeve 72, although illustrated here, is not necessary and the human input device can simply be dropped into the container by a user. The transfer sleeve 72 can simply be used for ease of the transfer of the human input device or for any appropriate reason.

With reference to FIG. 6, the contained human input device 74 can then be provided into and in a sterile field, such as to provide input to a computer system 120. The computer system 120 can be any appropriate computer system such as the computer system described in U.S. patent application Ser. No. 10/976,328 filed Oct. 28, 2004, entitled “Method and Apparatus for Calibrating Non-Linear Instruments”, incorporated herein by reference.

The computer system 120 can be a part of a work station and part of a larger navigation system 122. The computer 120 or the work station 120 can also include a human readable device 124, such as a monitor. Also, as discussed above, other human input devices such as a keyboard 126 can also be provided. The work station 120 can be included on a moveable cart or station 128. As discussed above, the human input device 74 can be enclosed in the container 70 and be used with the computer system 120 to assist in inputting information, such as locations, distances, instrument types and the like.

As discussed above, a person that is within the sterile field, such as a user including a surgeon 130, can contact the container 70 without fear of breaking or severing the sterile field. Because the container 70 is sterile and the human input device 74 is contained within the container 70, the user 130, who is also sterile, can manipulate the user input device 74 without fear of destroying the sterile field. Therefore, the container 70 can allow for direct input by a user, such as the surgeon, into the computer system 120 to assist in the procedure, such as one using a navigation system 122.

The navigation system 122 can be any appropriate navigation system such as the navigation system disclosed in U.S. patent application Ser. No. 10/976,328 filed Oct. 28, 2004, entitled “Method and Apparatus for Calibrating Non-Linear Instruments”, incorporated herein by reference. Therefore, portions of the navigation system 122 will be listed briefly but not described in detail.

The navigation system 122 can include various portions, such as an imaging device 132 that can be positioned relative to a patient 134. The patient can be supported on a patient support 135, which can include a bed or other structure. The imaging device 132 can be any appropriate imaging device, such as a C-arm 136. The C-arm 136 can include an x-ray source 138 and a receiving section 140. The receiving section can include or be used with a tracking target 142. Further, radiation sensors 144 can be provided for various purposes, such as determining when imaging is occurring. The C-arm 136 can be controlled with a C-arm controller 146 that can be interconnected with the work station 120 using any appropriate mechanism.

The image created by the imaging system 132 can be displayed on the display 124 or any appropriate display portion. Further, the images can be used with the navigation system 122 and a tracking system 150. The tracking system 150 can include various portions, such as an optical array or localizer 152 or a coil array or localizer 154. It will be understood that any appropriate number of localizers can be provided and any appropriate type of localizers can be provided for various navigation systems. For example, an additional localizer 156 can be provided relative to the imaging system 132. It will be understood that the localizers can be positioned in any appropriate position to assist in the navigation system 150.

A probe interface or interface system 160 can be provided to allow for an interface connection between the work station 120 and the various instruments and probes provided relative to the patient 134. For example, a navigation probe 162 can be used and tracked during an operative procedure. Further, an instrument 164, such as a reamer, can be provided. The instruments and probe 162, 164 can be provided with various tracking sensors such as electromagnetic tracking sensors 166 or optical tracking sensors 168. It will be understood that any appropriate tracking sensor can be provided and can depend upon the type of tracking system 150 being used. Further, a dynamic reference frame 170 can be provided that is interconnected with the patient 134 to allow for a dynamic reference or dynamic localization of the patient 134. Further, fiducial markers 172 can be provided to allow for an initial or re-registration of the patient 134 relative to image data. The various instruments and systems can also be passed through an isolator or circuit box 174 to assist in isolating the various instruments from the electronic components of the navigation system 122.

It will be understood that the navigation system 122 can be any appropriate navigation system and the navigation system 122 illustrated is merely exemplary. Further, the work station 120 can be any appropriate work station and the work station 120 illustrated is also merely exemplary. Nevertheless, the human input device 74 can be included within the container 70 to allow for a person within a sterile field, such as the user 130, to input information and instructions into the work station 120 without destroying the sterile field. It will be understood that the human input device 126 can also be included within an appropriate container, including those discussed that can be sized, dimensioned, and the like for various purposes. It will be understood that the above method and use of any container ins merely exemplary. The user input device 74, or any appropriate device, can be put in a container in any appropriate manner. 

What is claimed is:
 1. A method of providing a member to a sterile field in an operating room, comprising: providing a container operable by a user in an operating room to contain the member; moving the member into the container; closing the container to an ambient atmosphere after moving the member into the container; and using the member to provide input to a system while the member is in the container.
 2. The system of claim 1 further comprising; providing a member, including a human input device.
 3. The method of claim 2, wherein providing a human input device includes providing at least one of a stylus, a mouse, a trackball, a keyboard, a foot pedal, a laser pointer, or combinations thereof.
 4. The method of claim 1, wherein closing the container includes substantially sealing an open portion of the container relative to the ambient atmosphere.
 5. The method of claim 4, wherein sealing the container includes at least one of adhering a first wall to a second wall with an adhesive, positioning a second wall relative to a first wall with a rail and groove locking system, rolling an open portion of the container upon itself and crimping the rolled portion of the container, providing a two-handed deformable member to crimp an open portion of the container, providing a four-ended deformable member to crimp an open portion of the container, welding two portions of the container together, or combinations thereof.
 6. The method of claim 1, further comprising: providing a first user to move the member into the container and providing a second user to use the member to provide input to a system.
 7. The method of claim 1, wherein providing a container includes providing a container including a substantially sterile exterior.
 8. The method of claim 1, further comprising: providing a moving system operable to move the member into the container.
 9. The method of claim 8, wherein the moving system includes a sleeve having a first open end and a second open end and a wall operable to contain the member during moving from an exterior environment to the interior of the container.
 10. The method of claim 1, wherein providing a container includes providing a substantially malleable container, providing a substantially stiff container, providing a substantially deformable container, or combinations thereof.
 11. The method of claim 1, wherein providing a container includes providing a container formed of a polymer material, providing a container formed of a metal alloy material, providing a container formed of a metal, providing a container formed of a combination of materials.
 12. The method of claim 1, wherein moving the member includes moving a substantially non-sterile human input device into the container while maintaining a sterility over the exterior of the container.
 13. A method of using an unsterilized human input device with a processor in or near a sterile field comprising: moving the human input device into a container having a sterile exterior while maintaining the sterility of the exterior of the container; closing the container to substantially completely contain the human input device within the provided container; and using the human input device within a sterile field while maintaining the sterile field.
 14. The method of claim 13, further comprising: providing a human input device, including at least one of a mouse, a stylus, a keyboard, a trackball, a foot pedal, a laser input device, or combinations thereof.
 15. The method of claim 14, further comprising: providing a processor to receive input from the human input device.
 16. The method of claim 13, further comprising providing an input to a processor.
 17. The method of claim 16, wherein the processor is a part of a navigation system.
 18. The method of claim 17, further comprising providing the navigation system including providing at least one of an imaging system, a tracking system, a localizer, a surgical instrument, a tracking sensor, a dynamic reference frame, or combinations thereof.
 19. The method of claim 13, wherein closing the container includes at least one of folding a portion of a container over itself, sealing two portions of the container relative to one another, moving a rail portion into a trough portion to close an open portion of the container, welding a first portion of the container relative to a second portion of the container, or combinations thereof to substantially seal the container.
 20. The method of claim 13, wherein moving the human input device into the container includes passing the human input device through a sterile transport system.
 21. The method of claim 20, wherein the sterile transport device includes a sleeve, including a first open end and a second open end in a substantial sterile outer wall: wherein the human input device is moved through the outer wall.
 22. The method of claim 13, wherein using the human input device includes selecting a portion on a human readable output device.
 23. A method of using a computer assisted surgical navigation system comprising: using a navigation system to track a tracking sensor; positioning a human input device in a container to contain the human input device; maintaining the sterility of an exterior of the container; and closing the container to an exterior environment.
 24. The method of claim 23, further comprising: closing the container after positioning the human input device within the container in an operating room.
 25. The method of claim 23, wherein closing the container includes rolling a portion of the container upon itself, crimping a portion of the container, crimping a member relative to a wall of the container, adhering to portions of the container, moving a bead into a track, or combinations thereof.
 26. The method of claim 23, further comprising inputting information into the navigation system with the human input device from within the container.
 27. The method of claim 26, wherein inputting information includes providing an instruction to the navigation system.
 28. The method of claim 23, further comprising providing the container including providing at least one of a flexible bag, a malleable container, a stiff container, a transparent container, an opaque container, a semi-transparent container, or combinations thereof.
 29. The method of claim 23, further comprising providing the container including providing a container formed of a polymer, an alloy, a metal, a combinations of materials, or a combination thereof.
 30. The method of claim 23, further comprising providing the container including providing a container substantially sealable relative to an exterior environment to substantially eliminate the transmission of any portion between an interior of the container and an exterior of the container.
 31. The method of claim 23, further comprising: using the human input device from within the closed container to provide input to the navigation system.
 32. The method of claim 23, further comprising providing the navigation system including providing at least one of a tracking sensor, a localization system an imaging system, a processor, a dynamic reference claim, a surgical instrument, a registration system, or combinations thereof.
 33. The method of claim 23, wherein positioning the human input device in the container includes moving the human input device through a sterilized member between an exterior environment and an interior environment defined by the container. 